1556 Shaanxi earthquake

Shaanxi earthquake in 1556
Map of China showing modern-day Shaanxi province (red) and the other provinces affected by the earthquake (orange)
1556 Shaanxi earthquake is located in China
1556 Shaanxi earthquake
Local date23 January 1556 (1556-01-23) in Julian calendar
2 February 1556 (1556-02-02) in Gregorian calendar
The 12th day of the 12th month of the 34th year of the Jiajing era in Chinese calendar
Local timeEarly morning
Magnitude8.0 Mw
DepthUnknown
Epicenter34°30′01″N 109°18′00″E / 34.50028°N 109.30000°E / 34.50028; 109.30000
Areas affectedMing dynasty
Max. intensityXI (Extreme)
Casualties
  • 100,000+ (direct deaths) ~730,000 (indirect deaths)
Map of the Weihe–Shanxi Rift System along the southern and eastern margin of the Ordos Block

The 1556 Shaanxi earthquake (Postal romanization: Shensi), known in Chinese colloquially by its regnal year as the Jiajing Great Earthquake "嘉靖大地震" (Jiājìng Dàdìzhèn) or officially by its epicenter as the Hua County Earthquake "华县地震" (Huàxiàn Dìzhèn), occurred in the early morning of 23 January 1556 in Huaxian, Shaanxi during the Ming dynasty.

Most of the residents there lived in yaodongs—artificial caves in loess cliffs—which collapsed and buried alive those sleeping inside. Modern estimates put the direct deaths from the earthquake at over 100,000, while over 700,000 migrated away or died from famine and plagues, which summed up to a total loss of 830,000 people in Imperial records. It was the deadliest recorded earthquake in history, and in turn one of the deadliest natural disasters in Chinese history.

Tectonic setting

Huaxian lies within the Weihe Basin, one of the rift basins that form the southern and eastern boundaries of the Ordos Block. To the east the basin is continuous with the Shanxi Rift System. The Weihe basin formed during the Paleogene in response to northwest–southeast directed extension. Following a tectonically quiet period during the late Paleogene the rift basins became active again in the Neogene in response to NNW–SSE directed extension, activity that continues to the present. The basins in the Weihe-Shanxi Rift System are bounded by large normal faults, which have been responsible for large historical earthquakes. The Weihe Basin has an overall half-graben geometry, with the main controlling faults, such as the Huashan Fault and North Qinling Fault, forming the southern boundary.

Earthquake

The epicenter was in the Wei River Valley in Shaanxi Province, near Huaxian (now Huazhou District of Weinan), Weinan and Huayin. Huaxian was completely destroyed, killing more than half the residents of the city, with an estimated death toll in the hundreds of thousands. The situation in Weinan and Huayin was similar. In certain areas, 20-metre-deep (66 ft) crevices opened in the earth. Destruction and death were widespread, affecting places as far as 500 kilometres (310 mi) from the epicenter. The earthquake also triggered landslides, which contributed to the massive death toll. The rupture occurred during the reign of the Jiajing Emperor of the Ming dynasty. Therefore, in the Chinese historical record, this earthquake is often referred to as the Jiajing Great Earthquake.

In the annals of China it was described in this manner:

In the winter of 1556, an earthquake catastrophe occurred in the Shaanxi and Shanxi Provinces. In our Hua County, various misfortunes took place. Mountains and rivers changed places and roads were destroyed. In some places, the ground suddenly rose up and formed new hills, or it sank abruptly and became new valleys. In other areas, a stream burst out in an instant, or the ground broke and new gullies appeared. Huts, official houses, temples and city walls collapsed all of a sudden.

The earthquake damaged many of the Forest of Stone steles badly. Of the 114 Kaicheng Stone Classics, 40 were broken in the earthquake.

The scholar Qin Keda lived through the earthquake and recorded details. One conclusion he drew was that "at the very beginning of an earthquake, people indoors should not go out immediately. Just crouch down and wait. Even if the nest has collapsed, some eggs may remain intact." The shaking reduced the height of the Small Wild Goose Pagoda in Xi'an by three levels.

Geology

Modern estimates, based on geological data, give the earthquake a magnitude of approximately 8 Mw on the moment magnitude scale and XI (catastrophic damage) on the Mercalli scale, though more recent discoveries have shown that it was more likely 7.9 Mw. While it was the deadliest earthquake and the third-deadliest natural disaster in history, there have been earthquakes with considerably higher magnitudes. Following the earthquake, aftershocks continued several times a month for half a year.

Shaking was felt strongly across the Weihe Basin region. The maximum China seismic intensity was XI to XII occurring in Huaxian and Weinan. This would support the theory of the earthquake rupturing along the Huashan and Weinan faults. Intensity VIII was observed throughout the basin and the intensity X+ zone was 100 km (62 mi) long.

Studies about the earthquake published between 1998 and 2017 presumed scarps along the Huashan and Weinan faults, some higher than 8 m (26 ft), were produced by the 1556 earthquake. The fault zone is located northeast of Xi'an. This normal fault generally trends east–west and dips to the north. A 1995 study said scarps along the Huashan Fault were 3–8 m (9.8–26.2 ft) high. Near the town of Huashan, the fault terrace contained Yangshao culture artefacts which were 4,000 years old. In a separate 1998 study, the fault scarps were about 4–7 m (13–23 ft) high. Scarps of the Weinan Fault are less detailed in published works with most focused around the Chishui River area. Two studies in 1992 and 2010 estimated the fault scarps at 2–4 m (6 ft 7 in – 13 ft 1 in) and 7–8 m (23–26 ft) respectively. There has not been any research to confirm these scarps were produced by the earthquake or formed by multiple events. Assuming both faults ruptured during the earthquake, which runs for a total 90 km (56 mi), the Mw  would be 7.0–7.5, according to empirical scaling relationships between magnitude and fault rupture length. This suggest previous values for the earthquake's magnitude were overestimated.

Loess caves

Millions of people at the time lived in yaodong—artificial loess caves—on high cliffs in the Loess Plateau. Loess is the silty soil, deposited on the plateau by windstorms over ages. The soft loess clay is a result of thousands of years of winds carrying silt from the Gobi Desert into the area. Loess is a highly erosion-prone soil. It is susceptible to the forces of wind and water.[better source needed]

The Loess Plateau and its dusty soil cover almost all of Shanxi, Shaanxi, and Gansu provinces and parts of others. Much of the population lived in yaodongs in these cliffs. This was the major contributing factor to the very high death toll. The earthquake collapsed many caves and caused landslides which destroyed many more.[better source needed]

Affected area

More than 97 counties in the provinces of Shaanxi, Shanxi, Henan, Gansu, Hebei, Shandong, Hubei, Hunan, Jiangsu and Anhui were affected. Buildings were damaged slightly in the cities of Beijing, Chengdu and Shanghai. An 840-kilometre-wide (520 mi) area was destroyed, and in some counties as much as 60% of the population was killed. The cost of damage done by the earthquake is almost impossible to measure in modern terms.

Death toll

Modern estimates put the direct deaths from the earthquake to be probably a little over 100,000, while 730,000 migrated away or died from famine and plagues, which summed up to a total loss of 830,000 people in Imperial records. It is one of the deadliest earthquakes in China, in turn making it one of the top disasters in China by death toll.

Foreign reaction

The Portuguese Dominican friar Gaspar da Cruz, who visited Guangzhou later in 1556, heard about the earthquake, and later reported about it in the last chapter of his book A Treatise of China (1569). He viewed the earthquake as a possible punishment for people's sins, and the Great Comet of 1556 as, possibly, the sign of this calamity (as well as perhaps the sign of the birth of the Antichrist).

See also


This page was last updated at 2024-03-07 07:19 UTC. Update now. View original page.

All our content comes from Wikipedia and under the Creative Commons Attribution-ShareAlike License.


Top

If mathematical, chemical, physical and other formulas are not displayed correctly on this page, please useFirefox or Safari